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5. Diketopiperazine-based ligands of prion protein

Author

Bolognesi, Ml, Staderini, M., Tran, H. N. A., Monaco, A., López Cobeñas, A., Bongarzone, S., Biarnés, X., López Alvarado, P., Cabezas, N., Carloni, P., Menéndez, J. C., and Legname, Giuseppe

Published
2010

6. Novel class of quinone-bearing polyamines as multi-target-directed ligands to combat Alzheimer's disease

Author

Andrea Cavalli, Anna Minarini, Antonino Cattaneo, Michela Rosini, Andrea Tarozzi, Vincenza Andrisano, Maria Laura Bolognesi, Patrizia Hrelia, Giorgio Lenaz, Rita Banzi, Manuela Bartolini, Christian Bergamini, Carlo Melchiorre, Romana Fato, Vincenzo Tumiatti, Maurizio Recanatini, Bolognesi ML, Banzi R, Bartolini M, Cavalli A, Tarozzi A, Andrisano V, Minarini A, Rosini M, Tumiatti V, Bergamini C, Fato R, Lenaz G, Hrelia P, Cattaneo A, Recanatini M, Melchiorre C., Bolognesi, Ml, Banzi, R, Bartolini, M, Cavalli, A, Tarozzi, A, Andrisano, V, Minarini, A, Rosini, M, Tumiatti, V, Bergamini, C, Fato, R, Lenaz, G, Hrelia, P, Cattaneo, Antonino, Recanatini, M, and Melchiorre, C.

Subjects
Models, Molecular, Amyloid beta, Plasma protein binding, medicine.disease_cause, Ligands, Antioxidants, MULTITARGET, Cell Line, Substrate Specificity, chemistry.chemical_compound, Structure-Activity Relationship, Alzheimer Disease, Drug Discovery, medicine, NAD(P)H Dehydrogenase (Quinone), Polyamines, Structure–activity relationship, Humans, Binding site, Butyrylcholinesterase, Amyloid beta-Peptides, Binding Sites, biology, Chemistry, Quinones, medicine.disease, AMYLOID-BETA, Acetylcholinesterase, Oxidative Stress, Biochemistry, ALZHEIMER'S DISEASE, biology.protein, Molecular Medicine, Cholinesterase Inhibitors, Alzheimer's disease, Reactive Oxygen Species, Oxidative stress, Protein Binding
Abstract

One of the characteristics of Alzheimer's disease (AD) that hinders the discovery of effective disease-modifying therapies is the multifactorial nature of its etiopathology. To circumvent this drawback, the use of multi-target-directed ligands (MTDLs) has recently been proposed as a means of simultaneously hitting several targets involved in the development of the AD syndrome. In this paper, a new class of MTDLs based on a polyamine-quinone skeleton, whose lead (memoquin, 2) showed promising properties in preclinical investigations (Cavalli et al. Angew. Chem., Int. Ed. 2007, 46, 3689-3692), is described. 3-29 were tested in vitro against a number of isolated AD-related targets, namely, AChE and BChE, and Abeta aggregation (both AChE-mediated and self-induced). Furthermore, the ability of the compounds to counteract the oxidative stress in a human neuronal-like cellular system (SH-SY5Y cells) was assayed, in both the presence and absence of NQO1, an enzyme able to generate and maintain the reduced form of quinone.

Published
2007

7. Sustainable Drug Discovery of Multi-Target-Directed Ligands for Alzheimer’s Disease

Author

Florian Nachon, Ondrej Soukup, Luciana de Camargo Nascente, Fabien Chantegreil, Michele Rossi, Marco Malaguti, Maria Laura Bolognesi, Sarah de Melo Viana Teixeira, Michela Freschi, Silvana Hrelia, Manuela Bartolini, Alessandra Salerno, Luiz Antonio Soares Romeiro, Christian Bergamini, Cristina Angeloni, Lukas Prchal, and Rossi M, Freschi M, de Camargo Nascente L, Salerno A, de Melo Viana Teixeira S, Nachon F, Chantegreil F, Soukup O, Prchal L, Malaguti M, Bergamini C, Bartolini M, Angeloni C, Hrelia S, Soares Romeiro LA, Bolognesi ML.

Subjects
Lipopolysaccharides, Cell Survival, Molecular Dynamics Simulation, Pharmacology, Ligands, 01 natural sciences, Neuroprotection, Article, Cell Line, ACETYLCHOLINESTERASE, NEUROINFLAMMATION, BUTYRYLCHOLINESTERASE, MICROGLIA, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, Multi target, Alzheimer Disease, Catalytic Domain, Drug Discovery, medicine, Humans, Nuts, Anacardium, CRYSTAL-STRUCTURE, Neuroinflammation, Butyrylcholinesterase, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Binding Sites, Plant Extracts, Chemistry, Drug discovery, Acetylcholinesterase, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Neuroprotective Agents, SUSTAINABLE DRUG DISCOVERY, Enzyme, ALZHEIMER'S DISEASE, Drug Design, Tacrine, Cytokines, Molecular Medicine, TACRINE HYBRIDS, medicine.drug
Abstract

The multifactorial nature of Alzheimer's disease (AD) is a reason for the lack of effective drugs as well as a basis for the development of "multi-target-directed ligands" (MTDLs). As cases increase in developing countries, there is a need of new drugs that are not only effective but also accessible. With this motivation, we report the first sustainable MTDLs, derived from cashew nutshell liquid (CNSL), an inexpensive food waste with anti-inflammatory properties. We applied a framework combination of functionalized CNSL components and well-established acetylcholinesterase (AChE)/butyrylcholinesterase (BChE) tacrine templates. MTDLs were selected based on hepatic, neuronal, and microglial cell toxicity. Enzymatic studies disclosed potent and selective AChE/BChE inhibitors (5, 6, and 12), with subnanomolar activities. The X-ray crystal structure of 5 complexed with BChE allowed rationalizing the observed activity (0.0352 nM). Investigation in BV-2 microglial cells revealed antineuroinflammatory and neuroprotective activities for 5 and 6 (already at 0.01 mu M), confirming the design rationale.

Published
2021
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8. Changing paradigm to target microglia in neurodegenerative diseases: from anti-inflammatory strategy to active immunomodulation

Author

Marco Virgili, Barbara Monti, Emiliano Peña-Altamira, Federica Prati, Maria Laura Bolognesi, Antonio Contestabile, Francesca Massenzio, Peña-Altamira, E, Prati, F, Massenzio, F, Virgili, M, Contestabile, A, Bolognesi, Ml, and Monti, B.

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, medicine.drug_class, Clinical Biochemistry, Drug target, Anti-Inflammatory Agents, Inflammation, Disease, Neuroprotection, Anti-inflammatory, Immunomodulation, 03 medical and health sciences, Therapeutic approach, 0302 clinical medicine, M2 and M1 phenotype, Drug Discovery, Animals, Humans, Medicine, Amyotrophic lateral sclerosis, Pharmacology, Microglia, business.industry, Neurodegenerative Diseases, medicine.disease, Neurodegenerative diseases, 030104 developmental biology, medicine.anatomical_structure, Molecular Medicine, medicine.symptom, business, Neuroscience, 030217 neurology & neurosurgery
Abstract

INTRODUCTION: The importance of microglia in most neurodegenerative pathologies, from Parkinson's disease to amyotrophic lateral sclerosis and Alzheimer's disease, is increasingly recognized. Until few years ago, microglial activation in pathological conditions was considered dangerous to neurons due to its causing inflammation. Today we know that these glial cells also play a crucial physiological and neuroprotective role, which is altered in neurodegenerative conditions. AREAS COVERED: The neuroinflammatory hypothesis for neurodegenerative diseases has led to the trial of anti-inflammatory agents as therapeutics with largely disappointing results. New information about the physiopathological role of microglia has highlighted the importance of immunomodulation as a potential new therapeutic approach. This review summarizes knowledge on microglia as a potential therapeutic target in the most common neurodegenerative diseases, with focus on compounds directed toward the modulation of microglial immune response through specific molecular pathways. EXPERT OPINION: Here we support the innovative concept of targeting microglial cells by modulating their activity, rather than simply trying to counteract their inflammatory neurotoxicity, as a potential therapeutic approach for neurodegenerative diseases. The advantage of this therapeutic approach could be to reduce neuroinflammation and toxicity, while at the same time strengthening intrinsic neuroprotective properties of microglia and promoting neuroregeneration.

Published
2015
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9. Nutritional and Pharmacological Strategies to Regulate Microglial Polarization in Cognitive Aging and Alzheimer’s Disease

Author

Francesca Massenzio, Marco Virgili, Sabrina Petralla, Maria Laura Bolognesi, Barbara Monti, Emiliano Peña-Altamira, Peña-Altamira, E, Petralla, S, Massenzio, F, Virgili, M, Bolognesi, Ml, and Monti, B.

Subjects
0301 basic medicine, Senescence, Aging, Cognitive Neuroscience, microglia, Review, Disease, immunomodulation, Neuroprotection, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, Immune system, Medicine, Dementia, bioactive compound, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Neuroinflammation, cognitive impairment, bioactive compounds, Microglia, business.industry, medicine.disease, drug therapy, nutrition, 030104 developmental biology, medicine.anatomical_structure, nervous system, Immunology, Alzheimer's disease, business, Alzheimer’s disease, Neuroscience, 030217 neurology & neurosurgery
Abstract

The study of microglia, the immune cells of the brain, has experienced a renaissance after the discovery of microglia polarization. In fact, the concept that activated microglia can shift into the M1 pro-inflammatory or M2 neuroprotective phenotypes, depending on brain microenvironment, has completely changed the understanding of microglia in brain aging and neurodegenerative diseases. Microglia polarization is particularly important in aging since an increased inflammatory status of body compartments, including the brain, has been reported in elderly people. In addition, inflammatory markers, mainly derived from activated microglia, are widely present in neurodegenerative diseases. Microglial inflammatory dysfunction, also linked to microglial senescence, has been extensively demonstrated and associated with cognitive impairment in neuropathological conditions related to aging. In fact, microglia polarization is known to influence cognitive function and has therefore become a main player in neurodegenerative diseases leading to dementia. As the life span of human beings increases, so does the prevalence of cognitive dysfunction. Thus, therapeutic strategies aimed to modify microglia polarization are currently being developed. Pharmacological approaches able to shift microglia from M1 pro-inflammatory to M2 neuroprotective phenotype are actually being studied, by acting on many different molecular targets, such as glycogen synthase kinase-3 (GSK3) β, AMP-activated protein kinase (AMPK), histone deacetylases (HDACs), etc. Furthermore, nutritional approaches can also modify microglia polarization and, consequently, impact cognitive function. Several bioactive compounds normally present in foods, such as polyphenols, can have anti-inflammatory effects on microglia. Both pharmacological and nutritional approaches seem to be promising, but still need further development. Here we review recent data on these approaches and propose that their combination could have a synergistic effect to counteract cognitive aging impairment and Alzheimer’s disease (AD) through immunomodulation of microglia polarization, i.e., by driving the shift of activated microglia from the pro-inflammatory M1 to the neuroprotective M2 phenotype.

Published
2017
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10. Polyamines in Drug Discovery: From the Universal Template Approach to the Multitarget-Directed Ligand Design Strategy

Author

Maria Laura Bolognesi, Carlo Melchiorre, Anna Minarini, Michela Rosini, Vincenzo Tumiatti, Melchiorre C, Bolognesi ML, Minarini A, Rosini M, and Tumiatti V

Subjects
Structure-Activity Relationship, Chemistry, Drug discovery, Drug Design, Models, Animal, Drug Discovery, Polyamines, Animals, Molecular Medicine, Design strategy, Ligands, Ligand (biochemistry), Combinatorial chemistry
Published
2010
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11. Neglected Tropical Diseases: Multi-Target-Directed Ligands in the Search for Novel Lead Candidates against Trypanosoma and Leishmania

Author

Andrea Cavalli, Maria Laura Bolognesi, Cavalli A, and Bolognesi ML

Subjects
Leishmania, Trypanosoma, Antiprotozoal Agents, Computational biology, Biology, Ligands, biology.organism_classification, Microbiology, Rare Diseases, Multi target, Tropical Medicine, Drug Discovery, Neglected tropical diseases, Animals, Humans, Molecular Medicine
Published
2009
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12. Synthesis of new lipoic acid conjugates and evaluation of their free radical scavenging and neuroprotective activities

Author

Michael Smietana, Jean-Jacques Vasseur, Christian Bergamini, Romana Fato, Joel Oiry, Maria Laura Bolognesi, Department of Pharmacy and Biotechnology, Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), Institut des Biomolécules Max Mousseron [Pôle Chimie Balard] (IBMM), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Montpellier (UM)-Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM), Bolognesi ML, Bergamini C, Fato R, Oiry J, Vasseur JJ, and Smietana M.

Subjects
antioxidant, Antioxidant, DPPH, Cell Survival, Alzheimer's disease, antioxidant, ferrous chelation, lipoic acid, multitarget ligands, medicine.medical_treatment, Context (language use), Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Dihydrolipoic acid, Cell Line, Tumor, Drug Discovery, medicine, Organic chemistry, Humans, Chelation, 030304 developmental biology, Pharmacology, 0303 health sciences, multitarget ligands, ABTS, ferrous chelation, Molecular Structure, Thioctic Acid, [CHIM.ORGA]Chemical Sciences/Organic chemistry, Organic Chemistry, Free Radical Scavengers, Alzheimer's disease, lipoic acid, Lipoic acid, Neuroprotective Agents, chemistry, Molecular Medicine, 030217 neurology & neurosurgery, Cysteine
Abstract

International audience; A series of new lipoic acid derivatives were designed and synthesized as multitarget ligands against Alzheimer's disease. In particular, analogues combining both lipoic acid and cysteine core structures were synthesized. The antioxidant properties of these compounds were evaluated by 1,1-diphenyl-2-picrylhydrazyl (DPPH), 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid (ABTS*+) radical cation scavenging assays and ferrous ion chelation. The antioxidant potential of the synthesized compounds was also evaluated in a cellular context and compared to α-lipoic acid and its reduced form, dihydrolipoic acid. The antioxidant effects observed for these compounds in vitro confirmed the importance of free thiol functions for effective antioxidant capacities. However, these promising in vitro results were not mirrored by the antioxidant activity in T67 cell line. This suggests that multiple factors are at stake and warrant further investigations.

Published
2013
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13. Remembering Marie Curie's legacy

Author

Maria Laura Bolognesi, Gloria Cristalli, Cristalli G, and Bolognesi ML

Subjects
Pharmacology, History, Internationality, Organic Chemistry, Awards and Prizes, Art history, History, 19th Century, SCIENCE, History, 20th Century, Biochemistry, History, 21st Century, Marie curie, Chemistry, Italy, Spain, Drug Discovery, Workforce, Molecular Medicine, Humans, Female, France, General Pharmacology, Toxicology and Pharmaceutics, Radiology, Women, Working
Abstract

The April issue of ChemMedChem is dedicated to women in chemistry, medicinal chemistry in particular. Two of ChemMedChem's Board members, Professors Gloria Cristalli, University of Camerino, Italy, and Maria Laura Bolognesi, University of Bologna, Italy, introduce this issue with their Editorial, Remembering Marie Curie's Legacy, which highlights a few of the many examples in which female chemists have contributed enormously to their field.

Published
2011

14. Discovery of a class of diketopiperazines as antiprion compounds

Author

Xevi Biarnés, Nieves Cabezas, Pilar López-Alvarado, Alberto López-Cobeñas, Maria Caramelli, Salvatore Bongarzone, J. Carlos Menéndez, Giuseppe Legname, Matteo Staderini, Hoang Ngoc Ai Tran, Paolo Carloni, Maria Laura Bolognesi, Alessandra Monaco, Bolognesi ML, Tran HNA, Staderini M, Monaco A, Lopez-Cobenas A, Bongarzone S, Biarnes X, Lopez-Alvarado P, Cabezas N, Caramelli M, Carloni P, Menendez JC, and Legname G

Subjects
Models, Molecular, Molecular model, drug design, fibrillation inhibitors, Prions, animal diseases, Drug Evaluation, Preclinical, Computational biology, Diketopiperazines, Biology, Biochemistry, Cell Line, Prion Diseases, Small Molecule Libraries, Molecular level, Drug Discovery, Humans, General Pharmacology, Toxicology and Pharmaceutics, Prion protein, Cytotoxicity, Pharmacology, computational chemistry, Prion diseases, Organic Chemistry, Virology, Recombinant Proteins, nervous system diseases, Molecular Medicine
Abstract

Prion diseases are fatal neurodegenerative and infectious disorders for which effective pharmacological tools are not yet available. This unmet challenge and the recently proposed interplay between prion diseases and Alzheimer's have led to a more urgent demand for new antiprion agents. Herein, we report the identification of a novel bifunctional diketopiperazine (DKP) derivative 1 d, which exhibits activity in the low micromolar range against prion replication in ScGT1 cells, while showing low cytotoxicity. Supported by properly addressed molecular modeling studies, we hypothesized that a planar conformation is the major determinant for activity in this class of compounds. Moreover, studies aimed at assessing the mechanism-of-action at the molecular level showed that 1 d might interact directly with recombinant prion protein (recPrP) to prevent its conversion to the pathogenic misfolded prion protein (PrP Sc )-like form. This investigation suggests that DKP based antiprion compounds can serve as a promising lead scaffold in developing new drugs to combat prion diseases.

Published
2010

15. Structure-activity relationships of memoquin: Influence of the chain chirality in the multi-target mechanism of action

Author

Carlo Melchiorre, Michela Rosini, Maria Laura Bolognesi, Manuela Bartolini, Vincenza Andrisano, Bolognesi ML, Bartolini M, Rosini M, Andrisano V, and Melchiorre C.

Subjects
Stereochemistry, Clinical Biochemistry, Substituent, Pharmaceutical Science, Biochemistry, Chemical synthesis, chemistry.chemical_compound, Inhibitory Concentration 50, Mice, Structure-Activity Relationship, Alzheimer Disease, Drug Discovery, Alkanes, medicine, Ethylamines, Polyamines, Animals, Humans, Amines, Molecular Biology, Amyloid beta-Peptides, Dose-Response Relationship, Drug, Hydrolysis, Organic Chemistry, Diastereomer, Quinones, Stereoisomerism, Acetylcholinesterase, Small molecule, Mechanism of action, chemistry, Models, Chemical, Molecular Medicine, medicine.symptom, Enantiomer, Chirality (chemistry)
Abstract

The present article expands on the study of structure–activity relationships of the novel class of quinone-bearing polyamines, as multi-target-directed ligands against Alzheimer’s disease. Namely, the effect of inserting a methyl substituent at the α position of the terminal benzyl amine moieties of lead candidate 1 (memoquin) was evaluated at the multiple targets involved in the multifunctional mechanism of action. The RR stereoisomer 2 resulted more effective than 1 in reverting two important effects mediated by acetylcholinesterase (AChE), that is, acetylcholine hydrolysis and AChE-induced amyloid-β aggregation.

Published
2009

16. Parallel synthesis and cytotoxicity evaluation of a polyamine-quinone conjugates library

Author

Carlo Melchiorre, Lanfranco Masotti, Maria Laura Bolognesi, Chiara Mangano, Natalia Calonghi, Bolognesi ML, Calonghi N, Mangano C, Masotti L, and Melchiorre C.

Subjects
Antineoplastic Agents, Apoptosis, chemistry.chemical_compound, Inhibitory Concentration 50, Structure-Activity Relationship, Drug Discovery, Polyamines, Combinatorial Chemistry Techniques, Humans, Cytotoxicity, Cell Proliferation, Chemistry, Cell growth, Quinones, In vitro, ErbB Receptors, Biochemistry, Cell culture, Colonic Neoplasms, Molecular Medicine, Signal transduction, Drug Screening Assays, Antitumor, Polyamine, HT29 Cells, Intracellular
Abstract

A library of 24 derivatives designed by combining two natural products-derived fragments was prepared and tested to determine their anticancer potential in HT29 colon cancer cells. All library members inhibit cell proliferation as measured by MTT mitochondrial functional assay, with IC50 values in the 1-100 microM range. Entry 1b caused apoptotic EGFR-mediated intracellular signaling. Thus, polyamino-quinones emerged as readily accessible and easily diversified scaffolds for anticancer lead discovery.

Published
2008

17. Recent advances in alpha1-adrenoreceptor antagonists as pharmacological tools and therapeutic agents

Author

ROSINI, MICHELA, BOLOGNESI, MARIA LAURA, MINARINI, ANNA, TUMIATTI, VINCENZO, MELCHIORRE, CARLO, Giardina D, Rosini M, Bolognesi ML, Giardina D, Minarini A, Tumiatti V, and Melchiorre C.

Subjects
Dihydropyridines, BENZODIOXANES, Piperazines, Substrate Specificity, Dioxanes, Structure-Activity Relationship, ALPHA-1 ADRENERGIC ANTAGONISTS, Receptors, Adrenergic, alpha-1, Adrenergic alpha-1 Receptor Antagonists, Quinazolines, Animals, Humans, ARYLPIPERAZINES, ALPHA-1 ADRENORECEPTORS, Adrenergic alpha-Antagonists
Abstract

Native alpha(1)-adrenoreceptors (ARs) appear to exist as three different subtypes encoded by three genes, alpha(1A/1a), alpha(1B/1b), and alpha(1D/1d). Historically, the discovery of agents selective for each of the three alpha(1)-AR subtypes has been an active area of medicinal chemistry research because of the wide number of possible therapeutic applications. Initially introduced for the management of hypertension, alpha(1)-AR antagonists have, in fact, become increasingly common in the treatment of benign prostatic hyperplasia (BPH), and are effective therapeutic tools, when characterized by an appropriate uroselective profile. The majority of these derivatives display a competitive mechanism of action and belong to a variety of structural classes, but this review is focused on compounds belonging to the quinazoline, benzodioxane, arylpiperazine, and 1,4-dihydropyridine classes.

Published
2007

18. A new EGFR inhibitor induces apoptosis in colon cancer cells

Author

Natalia Calonghi, Eleonora Pagnotta, Chiara Mangano, Maria Laura Bolognesi, Carlo Melchiorre, Lanfranco Masotti, Carola Eleonora Parolin, Calonghi N, Pagnotta E, Parolin C, Mangano C, Bolognesi ML, Melchiorre C, and Masotti L.

Subjects
Colorectal cancer, Biophysics, Apoptosis, Biology, Biochemistry, Flow cytometry, Western blot, medicine, Humans, Kinase activity, Receptor, Molecular Biology, Protein Kinase Inhibitors, EGFR inhibitors, Microscopy, Confocal, medicine.diagnostic_test, Dose-Response Relationship, Drug, Cell Biology, medicine.disease, Molecular biology, ErbB Receptors, Colonic Neoplasms, Tyrosine kinase, HT29 Cells, Naphthoquinones
Abstract

The use of agents targeting EGFR represents a new frontier in colon cancer therapy. Among these, mAbs and EGFR tyrosine kinase inhibitors seemed to be the most promising. However they have demonstrated scarce utility in therapy, the former being effective only at toxic doses, the latter resulting inefficient in colon cancer. This paper presents studies on a new EGFR inhibitor, FR18, a molecule containing the same naphthoquinone core as shikonin, an agent with great anti-tumor potential. In HT29, a human colon carcinoma cell line, flow cytometry, immunoprecipitation, and Western blot analysis, confocal spectral microscopy have demonstrated that FR18 is active at concentrations as low as 10 nM, inhibits EGF binding to EGFR while leaving unperturbed the receptor kinase activity. At concentration ranging from 30 nM to 5 microM, it activates apoptosis. FR18 seems therefore to have possible therapeutic applications in colon cancer.

Published
2006

19. Multi-Target-Directed Ligands as innovative tools to combat Trypanosomatid diseases

Author

Maria Laura Bolognesi, Bolognesi ML, and M. L. Bolognesi

Subjects
Multi target, High prevalence, Risk analysis (engineering), Combination therapy, Trypanosomiasis, NEGLECTED DESEASE, Drug Discovery, Animals, Humans, General Medicine, Business, Ligands, Trypanocidal Agents
Abstract

Due to the lack of effective drugs, trypanosomiases and leishmaniases pose a major threat to many million people living in resource-poor countries. Despite this, there has been little research and development for new drugs in the field, and little progress has been made in the treatment of these diseases over the past decades. However, in very recent years, thanks also to the involvement of several philanthropic organizations, the chemotherapeutic arsenal has broadened with the introduction of the first combination therapy. The optimal clinical efficacy and safety of nifurtimox–eflornithine combination against second-stage human African trypanosomiasis represents an encouraging first step towards more effective and more affordable treatments. Along the same line, single chemical entities able to modulate multiple targets simultaneously (the so called multi-target-directed.ligands, MTDLs) may offer the potential of a superior efficacy and lower cost than the current available drugs. Furthermore, with respect to combinations,, MTDLs should provide a simpler regimen for antitrypanosomatid therapy. Herein, examples of MTDLs taken from studies in the author’s laboratory will be discussed.

21. Multitarget-directed drug design strategy: novel hybrid compounds between lipocrine and carvedilol

Author

MICHELA ROSINI, Simoni, Elena, Maria Laura Bolognesi, VINCENZA ANDRISANO, Manuela Bartolini, Andrea Tarozzi, Hrelia, Patrizia, Mellor, I., Melchiorre, Carlo, Rosini M, Simoni E, Bolognesi ML, Andrisano V, Bartolini M, Tarozzi a, Hrelia P, Mellor I, and Melchiorre C.

Subjects
stomatognathic system, virus diseases, lipids (amino acids, peptides, and proteins), digestive system diseases
Abstract

A new series of lipocrine derivatives has been designed by replacing the antioxidant alfa lipoic residue with carbazole moiety of carvedilol.

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